CN205352361U - Three -dimensional size detection machine of part - Google Patents

Abstract

The utility model discloses a three -dimensional size detection machine of part, including the feeding rack and the host computer body, the last vibration feeding mechanism that is equipped with of feeding rack, the internal seat of honour that is equipped with of host computer is equipped with material loading pushing equipment, graduated disk, unloading pushing equipment, detection mechanism and feed mechanism on, material loading pushing equipment can be with vibrating on part that feeding mechanism sent into pushes the graduated disk, unloading pushing equipment includes that unloading expeller and unloading push away material actuating mechanism, detection mechanism includes testing platform, goes up size detection sensor and lower size detection sensor, and the unloading expeller is gone up the size detection sensor and is detected with the three -dimensional size of lower size detection sensor to the part on can pushing the part on the graduated disk testing platform, feed mechanism includes conveyer belt, conveyor drive motor, side branch hopper and divides material gas blowing device. The utility model discloses can realize pushing away in succession the material and detect, work efficiency is high, and is high to the measuring precision of the three -dimensional size of part, can realize the automatic stepping to the part simultaneously again.

Description

Part three-dimensional dimension testing machine

Technical field

This utility model relates to a kind of testing machine, particularly to a kind of part three-dimensional dimension testing machine.

Background technology

Being presently used for the testing machine of detection part three-D profile size, once can only push a part and detect, detection efficiency is relatively low, and the working cycle is longer.And, existing testing machine automaticity is low, and the detection precision of part three-D profile size is not high.It addition, existing testing machine also cannot realize the automatic stepping to part according to the three-dimensional dimension of the part surveyed and collect, function is more single.

Utility model content

For solving above-mentioned technical problem, the purpose of this utility model is in that to provide a kind of part three-dimensional dimension testing machine, this part three-dimensional dimension testing machine can realize the detection of continuous pusher, work efficiency is higher, and the detection precision of part three-dimensional dimension is higher, the automatic stepping to part can be realized again simultaneously and collect.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, this utility model is achieved through the following technical solutions: a kind of part three-dimensional dimension testing machine, including feeding frame and main body, described feeding frame is provided with vibration feeding mechanism, being provided with the seat of honour in described main body, the described seat of honour is provided with feeding pusher, index dial, blanking pusher, testing agency and feeding distribution mechanism；

Described vibration feeding mechanism connects with described feeding pusher, described feeding pusher includes feeding pusher support, pusher cylinder and pusher platform, described pusher cylinder and pusher platform may be contained within described feeding pusher support, described pusher cylinder is connected by a connection assembly and a feeding expeller, this feeding expeller is placed on described pusher platform, described pusher platform connects with described vibration feeding mechanism, described index dial is evenly distributed with multiple material stock groove, the index dial driving mechanism being connected with driving index dial to rotate of index dial, vibration feeding mechanism can be sent into the part of pusher platform and be pushed into continuously in the material stock groove on index dial by described feeding expeller, each material stock groove is pushed multiple part continuously；

Described blanking pusher is arranged at the top of described index dial, and this blanking pusher includes blanking expeller and blanking pusher driving mechanism；

Described testing agency includes detection platform, is positioned at the upper size detection sensor above detection platform and is positioned at the lower size detection sensor below detection platform, one group of part in material stock groove on index dial can be pushed into continuously in detection platform by described blanking expeller under the driving of blanking pusher driving mechanism, and upper size detection sensor and lower size detection sensor coordinate the three-dimensional dimension to part to detect；

Described feeding distribution mechanism includes conveyer belt, belt-driven motor and is positioned at multiple sides sub-material bucket at sidepiece place of conveyer belt, the relative position of the oral area of each side sub-material bucket is respectively provided with the sub-material blowning installation that part is blown into side sub-material bucket, is provided with landslide plate between described conveyer belt and described detection platform；

Further, described vibration feeding mechanism includes feed bin, vibrating disk and linear feed track, described feed bin is provided with part, the lower section of feed bin, the lower section of vibrating disk and the lower section of linear feed track are equipped with vibrating motor, part in feed bin enters linear feed track via vibrating disk under effect of vibration, and the discharging opening of this linear feed track connects with described pusher platform.

Further, described connection assembly includes the first connecting plate, the second connecting plate, feeding scraping wings and feeding slide block, the bottom of described first connecting plate is connected with described pusher cylinder, the top of described first connecting plate is connected with described feeding scraping wings by described second connecting plate, described feeding scraping wings is connected with described feeding slide block again, the sidepiece of described feeding pusher support is provided with slide rail, described feeding skid is installed on described slide rail, and described feeding expeller is installed on the end of described feeding scraping wings.

Further, described index dial driving mechanism includes index dial drive motor and electric rotary table, described electric rotary table is installed on a turntable base, index dial drive motor drives electric rotary table to rotate, this electric rotary table is provided with a support plate, and described index dial is installed on a described support plate by support column.

Further, described blanking pusher driving mechanism is installed on a blanking pusher support, described blanking pusher driving mechanism includes blanking pusher motor and synchronous belt drive mechanism, described blanking pusher support is also equipped with slide, slide is provided with the screw mandrel being connected with described synchronous belt drive mechanism, being slidably fitted with blanking slide block on screw mandrel, described blanking expeller is installed on a blanking scraping wings, and blanking scraping wings is installed on blanking slide block.

Further, the part arrival end of described landslide plate is provided with an angle adjustment lever, and this angle adjustment lever is installed on a fixing plate, and the described seat of honour is provided with a column, and this fixing plate is installed on the upper end of this column.

Further, the described seat of honour is provided with a detection support, the upper and lower of detection support is respectively equipped with elongated slot, the upper and lower of detection support is separately installed with a fixture respectively through this elongated slot, the outside of each fixture is respectively equipped with a rotation hand wheel, each rotation hand wheel regulates device respectively through a rotating shaft and being arranged in fixture and is connected, described upper size detection sensor is installed on the adjustment device at detection frame upper place, and described lower size detection sensor is installed on the adjustment device at detection support bottom place.

Further, the left part of described slide and right part are respectively equipped with grooved sensor, and described blanking scraping wings is provided with a sensing chip coordinated with described grooved sensor.

Further, described detection platform is provided with one group of correlation type position-detection sensor.

Further, described blanking pusher support is provided with an accumulator tank, this blanking pusher support is also equipped with one and is positioned at recovery blow head above index dial, this recovery blow head just notch to accumulator tank.

The beneficial effects of the utility model are: part can be pushed in the material stock groove in index dial by pusher cylinder in this utility model continuously, is pushed multiple part continuously in each material stock groove；Parts turn in the material stock groove of index dial to testing agency locate time, blanking expeller in blanking pusher can realize again being pushed in detection platform the part in material stock groove continuously one by one, upper size detection sensor coordinates the multiple parts in the material stock groove realized index dial to carry out continuous detecting with lower size detection sensor, work efficiency is higher, and detection precision is higher.Multiple parts in the material stock groove of index dial are shifted onto on conveyer belt by the plate that comes down by blanking expeller, the sidepiece of conveyer belt is provided with multiple sides sub-material bucket, the relative position of each side sub-material bucket is provided with sub-material blowning installation, thus feeding distribution mechanism can according to the sized data of detected part, under the aerodynamic force of sub-material blowning installation blowout, the part of same file data is blown in the sub-material bucket of same side, to realize the automatic stepping of the part to different three-dimensional dimensions, thus realizing unified the control to part quality.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of part three-dimensional dimension testing machine of the present utility model.

Fig. 2 is another structural representation of part three-dimensional dimension testing machine of the present utility model, wherein removed the part casing of main body.

Fig. 3 is the part-structure schematic diagram of part three-dimensional dimension testing machine of the present utility model.

Fig. 4 is the structural representation of another angle of Fig. 3.

Fig. 5 is the combinative structure schematic diagram of the feeding pusher in this utility model, index dial, blanking pusher and testing agency.

Fig. 6 is the combinative structure schematic diagram of the index dial in this utility model, blanking pusher and testing agency.

Fig. 7 is the structural representation of another angle of Fig. 6.

Fig. 8 is the structure for amplifying schematic diagram at the feeding pusher place in Fig. 3.

Fig. 9 is the enlarged diagram of part A in Fig. 6.

Figure 10 is the enlarged diagram of part B in Fig. 6.

Figure 11 is the enlarged diagram at feeding distribution mechanism place in Fig. 4.

Figure 12 is the enlarged diagram of C portion in Fig. 4.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, so that advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus protection domain of the present utility model being made apparent clear and definite defining.

As shown in Figures 1 to 12, a kind of part three-dimensional dimension testing machine, including feeding frame 1 and main body 2, described feeding frame 1 is provided with vibration feeding mechanism 3, being provided with the seat of honour 21 in described main body 2, the described seat of honour 21 is provided with feeding pusher 4, index dial 5, blanking pusher 6, testing agency 7 and feeding distribution mechanism 8；Described vibration feeding mechanism 3 connects with described feeding pusher 4.

Wherein, described vibration feeding mechanism 3 includes feed bin 31, vibrating disk 32 and linear feed track 33, described feed bin 31 is provided with part 9, the lower section of feed bin 31, the lower section of vibrating disk 32 and the lower section of linear feed track 33 are equipped with the vibrating motor 34 being installed in feeding frame 1, part 9 in feed bin 31 enters linear feed track 33 via vibrating disk 32 under effect of vibration, and the discharging opening of this linear feed track 33 connects with described feeding pusher 4 again.

As shown in Figure 8, described feeding pusher 4 includes feeding pusher support 41, pusher cylinder 42 and pusher platform 43, described pusher cylinder 42 and pusher platform 43 may be contained within described feeding pusher support 41, and described pusher cylinder 42 is connected by a connection assembly and a feeding expeller 44.In the present embodiment, described connection assembly includes the first connecting plate 45, second connecting plate 46, feeding scraping wings 47 and feeding slide block 48, the bottom of described first connecting plate 45 is connected with described pusher cylinder 42, the top of described first connecting plate 45 is connected with described feeding scraping wings 47 by described second connecting plate 46, described feeding scraping wings 47 is connected with described feeding slide block 48 again, the sidepiece of described feeding pusher support 41 is provided with slide rail 49, described feeding slide block 48 is slidably mounted on described slide rail 49, described feeding expeller 44 is installed on the end of described feeding scraping wings 47.Feeding expeller 44 is placed on described pusher platform 43, and described pusher platform 43 connects with the discharging opening of the linear feed track 33 in described vibration feeding mechanism 3.Described index dial 5 is evenly distributed with multiple material stock groove 51, the index dial driving mechanism being connected with driving index dial 5 to rotate of index dial 5.Vibration feeding mechanism 3 can be sent into the part 9 of pusher platform 43 and be pushed into continuously in the material stock groove 51 on index dial 5 by described feeding expeller 44, and feeding expeller 44 pushes away after repeatedly continuously, is pushed multiple part 9 in material stock groove 51 continuously.Wherein, in the present embodiment, this index dial driving mechanism includes index dial drive motor 52 and electric rotary table 53, this index dial drive motor is servomotor, described electric rotary table 53 is installed on a turntable base 54, index dial drive motor 52 drives electric rotary table 53 to rotate, and this electric rotary table 53 is provided with a support plate 55, and index dial 5 is installed on a described support plate 55 by support column 56.

As it is shown in figure 9, described blanking pusher 6 is arranged at the top of described index dial 5, this blanking pusher 6 includes blanking expeller 61 and blanking pusher driving mechanism.Furtherly, this blanking pusher 6 also includes a blanking pusher support 62, described blanking pusher driving mechanism is installed on this blanking pusher support 62, described blanking pusher driving mechanism includes blanking pusher motor 63 and synchronous belt drive mechanism 64, described blanking pusher support 62 is also equipped with slide 621, slide 621 is provided with the screw mandrel 622 being connected with described synchronous belt drive mechanism 64, screw mandrel 622 is slidably fitted with blanking slide block 623, described blanking expeller 61 is installed on a blanking scraping wings 624, and blanking scraping wings 624 is installed on blanking slide block 623.

The left part of described slide 621 and right part are respectively equipped with grooved sensor 625, and blanking scraping wings 624 is provided with a sensing chip 626 coordinated with grooved sensor 625.Sensing chip 626 coordinates with grooved sensor 625, it is possible to the shift motion of detection and control blanking scraping wings 624.In this utility model, the left part of slide 621 is provided with two grooved sensors 625, the right part of slide 621 is provided with a grooved sensor 625, wherein, in two grooved sensors of the left part of slide 621, the grooved sensor kept left most is for controlling the negative pole extreme position of blanking scraping wings 624, and another one grooved sensor is for controlling the origin position of blanking scraping wings 624, and the grooved sensor of the right part of slide 621 is for controlling the positive extreme position of blanking scraping wings 624.

As shown in Figure 7, furtherly, described blanking pusher support 62 is also equipped with an accumulator tank 627, and this blanking pusher support 62 is provided with one is positioned at recovery blow head 628 above index dial 5, this recovery blow head 628 just notch to accumulator tank 627, and this recovery blow head 628 is also just to the material stock groove 51 turning to accumulator tank position on index dial 5.

Described testing agency 7 includes detection platform 71, is positioned at the upper size detection sensor 72 above detection platform 71 and is positioned at the lower size detection sensor 73 below detection platform 71.Detection platform 71 is provided with mean for the detection mouth of the laser beam traverse that lower size detection sensor sends.Detection platform 71 is installed on stage+module frame 76.Part 9 in material stock groove 51 on index dial 5 can be pushed into continuously one by one in detection platform 71 by described blanking expeller 61 under the driving of blanking pusher driving mechanism, and upper size detection sensor 72 and lower size detection sensor 73 coordinate the three-dimensional dimension to part to detect.Furtherly, this detection platform 71 is additionally provided with one group of correlation type position-detection sensor 74.

As shown in figure 11, described feeding distribution mechanism 8 includes conveyer belt 81, belt-driven motor 82 and is positioned at multiple sides sub-material bucket 83 at sidepiece place of conveyer belt 81, and the relative position of the oral area of each side sub-material bucket 83 is respectively provided with the sub-material blowning installation 84 that part 9 is blown into side sub-material bucket 83.Landslide plate 85 it is provided with between described conveyer belt 81 and described detection platform 71.Each side sub-material bucket 83 be respectively arranged below with a Riving Box 86, the terminal position place of conveyer belt 81 is provided with a material-storing box 87.As shown in Figure 10, furtherly, the part arrival end of described landslide plate 85 is provided with an angle adjustment lever 851, and this angle adjustment lever 851 is installed on a fixing plate 852, and the described seat of honour 21 is provided with a column 211, and this fixing plate 852 is installed on the upper end of this column 211.Rotational angle adjusting lever 851, it is possible to adjust the setting angle of landslide plate 85.Landslide plate 85 is additionally provided with a pressing plate 853, between pressing plate 853 and landslide plate 85, forms the sliding channel of part 9.Pressing plate 853 is set, it is possible to the downslide making part 9 is more stable.Conveyer belt 81 can arrange a buffer stopper 88 corresponding with the lower end position of landslide plate 85, so that the part 9 dropped on conveyer belt 81 to be cushioned.As shown in figure 11, in this utility model, this conveyer belt 81 is arranged on a conveyer belt supporting plate 811, conveyer belt supporting plate 811 is installed on transmission track 812, the two ends along transmission direction of transmission track 812 are respectively arranged at a transmission mounting seat 813, and conveyer belt 81 is respectively installed with cylinder 814 along the two ends transmitting direction.Belt-driven motor 82 is connected with a cylinder 814 at part import (head end) place being positioned at conveyer belt 81, and belt-driven motor 82 is by driving cylinder 814 to rotate, thus driving conveyer belt 81 to rotate, it is achieved the transmission to part 9.The cylinder 814 at part outlet (end) place of conveyer belt 81 is connected to tensioning block 815 by middle side plate, transmit and mounting seat 813 is provided with the backstand 816 coordinated with described tensioning block 815, tensioning block 815 is provided with tensioning screw 817, the end of tensioning screw 817 withstands on backstand 816, by turning tensioning screw 817, tensioning block 815 can be driven to move, so that it may drive cylinder 814 to move, and then make conveyer belt 81 tensioning.

Furtherly, as shown in figure 12, in this utility model, the concrete installation method of upper size detection sensor 72 and lower size detection sensor 73 is as follows: the seat of honour 21 is provided with a detection support 75, the upper and lower of detection support 75 is respectively equipped with elongated slot 751, the upper and lower of detection support 75 is separately installed with a fixture 752 respectively through this elongated slot 751, the outside of each fixture 752 is respectively equipped with a rotation hand wheel 753, each rotation hand wheel 753 regulates device 754 respectively through a rotating shaft and being arranged in fixture 752 and is connected, described upper size detection sensor 72 is installed on the bottom regulating device 754 at detection support 75 top place, described lower size detection sensor 73 is installed on the top regulating device 754 at the bottom place of detection support 75.Upper size detection sensor 72 and lower size detection sensor 73 are symmetrical set relative to detection platform 71.When installing size detection sensor 72 and lower size detection sensor 73, by adjusting the fixture 752 fixed position on the elongated slot 751 of detection support 75, thus adjusting the height of fixture 752, and then adjust the setting height(from bottom) of upper size detection sensor 72 or lower size detection sensor 73.Rotate rotation hand wheel 753, it is possible to pass through the adjustment device 754 installed, adjust the installation balance angle of the upper size detection sensor 72 installed and lower size detection sensor 73.

As in figure 2 it is shown, in this utility model, the top in main body 2 is provided with display 22, it is possible to display testing machine operational factor, main body 2 is provided externally with touch screen 23, it is possible to be used for arranging parameter.Bottom in main body 2 is provided with industrial computer 24, it is possible to run for controlling each mechanism in main body 2.

During work, part 9 to be detected is placed in feed bin 31, under the effect of the vibrating motor 34 bottom feed bin 31, part 9 in feed bin 31 enters vibrating disk 32, under the effect of vibration of the vibrating motor 34 bottom vibrating disk 32, part 9 in vibrating disk 32 enters linear feed track 33, the bottom of linear feed track 33 also is provided with vibrating motor 34, thus the part 9 in linear feed track 33 enters pusher platform 43, pusher cylinder 42 starts, the part 9 entering pusher platform 43 is pushed into continuously one by one in the material stock groove 51 of index dial 5 of alignment pusher platform 43 by feeding expeller 44 under the cooperation of feeding slide block 48 and slide rail 49.Each material stock groove 51 can be set by software by the quantity pushing part continuously.In the present embodiment, pusher cylinder 42 is set to push away 10 times continuously, thus, the material stock groove 51 of the index dial 5 of alignment pusher platform 43 there are 10 parts 9 to be detected, index dial drive motor 52 drives electric rotary table 53 to rotate, thus the index dial 5 on a support plate 55 rotates, next empty material stock groove 51 is directed at pusher platform 43, and pusher cylinder 42 is pushed further into again 10 parts to be detected and enters in this material stock groove 51.In this utility model, pusher platform 43 is additionally provided with the cylinder stroke limited block 431 of alignment feeding expeller 44, the outer end of this pusher platform 43 is additionally provided with threaded adjustment block 432, being equipped with a cylinder stroke adjusting lever 433 on this threaded adjustment block 432, this cylinder stroke adjusting lever 433 may act on again described cylinder stroke limited block 431.By cylinder stroke adjusting lever 433, it is possible to adjust the distance between cylinder stroke limited block 431 and feeding expeller 44, such that it is able to adjust the stroke of pusher cylinder 42, so that the stroke of pusher cylinder 42 can adjust according to the width of part 9.Index dial 5 is rotated by index dial drive motor 52, and the material stock groove 51 being pushed into part to be detected turns to detection platform 71 place.In this utility model, index dial 5 being additionally provided with the striker plate 57 between blanking pusher 6 and testing agency 7, this striker plate 57 can block part, it is prevented that in index dial rotation process, part falls.It is loaded with after the material stock groove 51 of the index dial 5 of part 9 rotate in place, blanking pusher motor 63 in blanking pusher 6 drives screw mandrel 622 to rotate by synchronous belt drive mechanism 64, blanking slide block 623 on screw mandrel 622 moves along slide 621, the blanking scraping wings 624 installed on blanking slide block 623 moves, thus the blanking expeller 61 being installed on blanking scraping wings 624 promotes the part 9 on material stock groove 51 to move in detection platform 71, in the process promoted continuously, part 9 in the material stock groove 51 of index dial 5 sequentially enters detection platform 71 one by one, wherein, whether each part 9 can have been put in place by the correlation type position-detection sensor 74 in detection platform 71 is detected.When part to be detected accurately arrives between upper size detection sensor 72 and lower size detection sensor 73, upper size detection sensor 72 and lower size detection sensor 73 all give off laser beam, thus upper size detection sensor 72 and lower size detection sensor 73 have coordinated the detection of the three-dimensional dimension to part 9.Each part can be carried out repeatedly multiple spot continuous sampling by software set by upper size detection sensor 72 and lower size detection sensor 73, thus accuracy of detection is up to micron order.Under the impetus of blanking expeller 61, complete the part 9 in the material stock groove 51 after detection and slide from the plate 85 of landslide one by one.Index dial 5 is rotated further, it is detected the material stock groove 51 of the index dial 5 of part when turning to the position reclaiming blow head 628, reclaim blow head 628 the material stock groove of this index dial 5 is blown, if the material stock groove of index dial 5 there is also the part 9 being not pushed out and detecting, the part 9 being not pushed out in material stock groove 51 is blown in accumulator tank 627 by the gas reclaiming blow head 628 blowout, reclaims with the part not detected realized omitting.In this utility model, column 211 can being installed an acceleration blow head, the gas accelerating blow head blowout can promote part to be more easy to downslide.The part slided from the plate 85 of landslide is fallen on conveyer belt 81.Conveyer belt 81 is rotated by belt-driven motor 82, and conveyer belt 81 drives part 9 to be fed forward.Sidepiece at conveyer belt 81 is provided with three sub-material blowning installations 84 altogether, sort by the direction of transfer of conveyer belt 81, first sub-material blowning installation and the 3rd sub-material blowning installation are positioned at the right side of conveyer belt 81, and second sub-material blowning installation is positioned at the left side of conveyer belt 81.The part of three sub-material blowning installation 84 corresponding three kinds of dimensions respectively.Conveyer belt 81 transmits in the process of part, and part 9 is blown in corresponding side sub-material bucket 83 by three sub-material blowning installations 84 respectively according to the size of detected part, finally enters in corresponding Riving Box 86.It is introduced into the part 9 in three Riving Boxes 86 under the drive of conveyer belt 81, is entered by deflector chute 89 in the material-storing box 87 of conveyer belt 81 end, this material-storing box 87 stores the most standard compliant part of specification.Each Riving Box 86 correspondence respectively stores the part of a kind of dimensions.Two correlation type sub-material detection sensors 818 laying respectively at the conveyer belt left and right sides can be set close to the position of plate 85 lower end, landslide, this correlation type sub-material detection sensor 818 can detect each part of getting off on the plate 85 of landslide and arrive the exact position on conveyer belt 81, according to measured size, part can accurately be blown into corresponding side sub-material bucket 83 controlling sub-material blowning installation 84.

Compared with prior art, this utility model has the advantage that in the material stock groove 51 that part can be pushed in index dial 5 by pusher cylinder 42 in this utility model continuously, blanking expeller 61 in blanking pusher 6 can realize again being pushed in detection platform 71 continuously by the part in material stock groove 51, upper size detection sensor 72 coordinates the multiple parts in the material stock groove 51 realized index dial 5 to carry out continuous detecting with lower size detection sensor 73, work efficiency is higher, and detection precision is higher.Multiple parts in the material stock groove 51 of index dial 5 can be shifted onto on conveyer belt 81 by blanking expeller 61, feeding distribution mechanism 8 can according to the sized data of detected part, under the aerodynamic force of sub-material blowning installation 84 blowout, the part of same file data is blown in same side sub-material bucket 83, standardized element then enters in material-storing box 87, to realize the automatic stepping of the part to different three-dimensional dimensions, thus realizing unified the control to part quality.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to make or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, all in like manner include in scope of patent protection of the present utility model.

Claims (10)

1. a part three-dimensional dimension testing machine, it is characterised by: include feeding frame and main body, described feeding frame is provided with vibration feeding mechanism, is provided with the seat of honour in described main body, and the described seat of honour is provided with feeding pusher, index dial, blanking pusher, testing agency and feeding distribution mechanism；

Described vibration feeding mechanism connects with described feeding pusher, described feeding pusher includes feeding pusher support, pusher cylinder and pusher platform, described pusher cylinder and pusher platform may be contained within described feeding pusher support, described pusher cylinder is connected by a connection assembly and a feeding expeller, this feeding expeller is placed on described pusher platform, described pusher platform connects with described vibration feeding mechanism, described index dial is evenly distributed with multiple material stock groove, the index dial driving mechanism being connected with driving index dial to rotate of index dial, vibration feeding mechanism can be sent into the part of pusher platform and be pushed into continuously in the material stock groove on index dial by described feeding expeller, each material stock groove is pushed multiple part continuously；

Described blanking pusher is arranged at the top of described index dial, and this blanking pusher includes blanking expeller and blanking pusher driving mechanism；

Described testing agency includes detection platform, is positioned at the upper size detection sensor above detection platform and is positioned at the lower size detection sensor below detection platform, part in material stock groove on index dial can be pushed into continuously in detection platform by described blanking expeller under the driving of blanking pusher driving mechanism, and upper size detection sensor and lower size detection sensor coordinate the three-dimensional dimension to part to detect；

Described feeding distribution mechanism includes conveyer belt, belt-driven motor and is positioned at multiple sides sub-material bucket at sidepiece place of conveyer belt, the relative position of the oral area of each side sub-material bucket is respectively provided with the sub-material blowning installation that part is blown into side sub-material bucket, is provided with landslide plate between described conveyer belt and described detection platform.

2. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: described vibration feeding mechanism includes feed bin, vibrating disk and linear feed track, described feed bin is provided with part, the lower section of feed bin, the lower section of vibrating disk and the lower section of linear feed track are equipped with vibrating motor, part in feed bin enters linear feed track via vibrating disk under effect of vibration, and the discharging opening of this linear feed track connects with described pusher platform.

3. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: described connection assembly includes the first connecting plate, second connecting plate, feeding scraping wings and feeding slide block, the bottom of described first connecting plate is connected with described pusher cylinder, the top of described first connecting plate is connected with described feeding scraping wings by described second connecting plate, described feeding scraping wings is connected with described feeding slide block again, the sidepiece of described feeding pusher support is provided with slide rail, described feeding skid is installed on described slide rail, described feeding expeller is installed on the end of described feeding scraping wings.

4. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: described index dial driving mechanism includes index dial drive motor and electric rotary table, described electric rotary table is installed on a turntable base, index dial drive motor drives electric rotary table to rotate, this electric rotary table is provided with a support plate, and described index dial is installed on a described support plate by support column.

5. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: described blanking pusher driving mechanism is installed on a blanking pusher support, described blanking pusher driving mechanism includes blanking pusher motor and synchronous belt drive mechanism, described blanking pusher support is also equipped with slide, slide is provided with the screw mandrel being connected with described synchronous belt drive mechanism, screw mandrel is slidably fitted with blanking slide block, described blanking expeller is installed on a blanking scraping wings, and blanking scraping wings is installed on blanking slide block.

6. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: the part arrival end of described landslide plate is provided with an angle adjustment lever, this angle adjustment lever is installed on a fixing plate, and the described seat of honour is provided with a column, and this fixing plate is installed on the upper end of this column.

7. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterized in that: the described seat of honour is provided with a detection support, the upper and lower of detection support is respectively equipped with elongated slot, the upper and lower of detection support is separately installed with a fixture respectively through this elongated slot, the outside of each fixture is respectively equipped with a rotation hand wheel, each rotation hand wheel regulates device respectively through a rotating shaft and being arranged in fixture and is connected, described upper size detection sensor is installed on the adjustment device at detection frame upper place, described lower size detection sensor is installed on the adjustment device at detection support bottom place.

8. a kind of part three-dimensional dimension testing machine according to claim 5, it is characterised in that: the left part of described slide and right part are respectively equipped with grooved sensor, and described blanking scraping wings is provided with a sensing chip coordinated with described grooved sensor.

9. a kind of part three-dimensional dimension testing machine according to claim 1, it is characterised in that: described detection platform is provided with one group of correlation type position-detection sensor.

10. a kind of part three-dimensional dimension testing machine according to claim 5, it is characterized in that: described blanking pusher support is provided with an accumulator tank, this blanking pusher support is also equipped with one and is positioned at recovery blow head above index dial, this recovery blow head just notch to accumulator tank.